Section 4 2 Objectives - CCBC Faculty Webfaculty.ccbcmd.edu/math081/Math081_Section4-2_Text.pdf ·...
Transcript of Section 4 2 Objectives - CCBC Faculty Webfaculty.ccbcmd.edu/math081/Math081_Section4-2_Text.pdf ·...
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 270
Section 4.2 Objectives
Determine whether the slope of a graphed line is positive, negative, 0, or undefined.
Determine the slope of a line given its graph.
Calculate the slope of a line given the ordered pairs of two points on the line.
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 271
Slope of a Line
INTRODUCTION
The steepness of a mountain is sometimes measured by a grade. If you see a sign that says “Mountain Grade 4%,” it means that for every 100 feet traveled horizontally, you ascend or descend 4 feet. The steepness of a mountain can also be measured by the angle at which it goes up or down. A particular mountain might have an incline of 15°. Think of the angle at which you would have to tilt your head looking up from ground level to the top of a mountain. In math, we also need to measure steepness. In this section, we measure the steepness of a line. That measurement is called the slope of the line.
SLOPE
One of the most important properties of a line is its slope. The slope of a line is a number that describes how steep the line is. Later in this section you will learn how to determine the number representing the slope of a line.
SLOPE
A number that describes the steepness (or slant) of a line.
The slope of a line also describes the general direction of a line. If the slope of a line is a positive number (+), then the line looks like the uphill part of a mountain. If the slope of a line is a negative number (−), then the line looks like the downhill part of a mountain. When we measure slope, it is important to always read from left to right, just like we read a sentence in English. So, always place your finger on the left of the line and trace the line from left to right. If the line slants up, it has a positive slope. If the line slants down, it has a negative slope.
There are two other types of lines to consider: horizontal lines and vertical lines. The slope of a horizontal line is 0 and the slope of a vertical line is undefined.
+ SLOPE − SLOPE Vertical
Uphill Downhill UNDEFINED
0 SLOPE SLOPE
Left to Right Horizontal
POSITIVE SLOPE
NEGATIVE SLOPE
0
SLOPE
UNDEFINED SLOPE
Uphill Downhill Horizontal Vertical
SECTION 4.2
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 272
EXAMPLES:
1. Slopes of Lines that Slant Up
If you place your finger on the left of each line below and trace the line from left to right,
you notice that all the lines slant up. Therefore, all the lines have a positive slope.
Slope = 12
Slope = 1 Slope = 3
Right now, don’t worry about how we determined the numbers for the slopes. You will
learn that soon.
2. Slopes of Lines that Slant Down
If you place your finger on the left of each line below and trace the line from left to right,
you notice that all the lines slant down. Therefore, all the lines have a negative slope.
Slope = 12
Slope = −1 Slope = −3
PRACTICE: Determine whether the slope of each of the lines below is positive or negative.
1.
2.
3.
ANSWERS:
1. positive slope 2. negative slope 3. positive slope
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 273
EXAMPLES:
1. Slopes of Horizontal Lines
All horizontal lines have a slope of zero. ( slope = 0 )
Slope = 0 Slope = 0 Slope = 0
2. Slopes of Vertical Lines
All vertical lines have an undefined slope.
Undefined Slope Undefined Slope Undefined Slope
PRACTICE: Determine whether the slope of each of the lines below is zero or undefined.
1.
2.
ANSWERS:
1. undefined slope 2. slope = 0
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 274
The chart and review video below summarize how the slope of a line relates to the direction of the line.
SLOPE OF LINE DIRECTION OF LINE
(from Left to Right)
Positive Number Slants Up
Negative Number Slants Down
0 Horizontal
Undefined Vertical
REVIEW: SLOPE AND DIRECTION OF A LINE
PRACTICE: Determine whether the slope of each line is positive, negative, 0, or undefined.
1.
3.
5.
7.
2.
4.
6.
8.
ANSWERS:
1. Positive
5. Negative
2. 0 6. Undefined
3. Negative 7. Positive
4. Undefined 8. 0
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 275
DETERMINING SLOPE
In many of the problems presented so far, the value of the slope of the line was given. For example,
Slope = 3 was written below the graph of the line. But we told you not to worry about how that
number was determined and that you would learn the procedure later. Well, now it is time for you to
study this topic. You will learn to determine the number that gives the slope of a line. Two methods
will be shown. The first method involves determining the slope using the graph of the line, and the
other method involves determining the slope without the graph.
DETERMINING THE SLOPE OF A LINE FROM ITS GRAPH
The slope of a line is simply the ratio of the rise to the run. The rise is the vertical distance traveled
and the run is the horizontal distance traveled as you move from one point on the line to another
point on the line.
To determine the slope of any line from its graph, you first need to identify two points on the line.
Any two points you choose will result in the same answer. To find the slope, it is recommended to
start at the leftmost point and then determine the rise and run needed to move to the other point.
The rise is the number of units you must move up or down, and the run is the number of units you
must move left or right. Remember that if you move up, the rise is positive. And if you move
down, the rise is negative. The run will always be positive as long as you start at the leftmost point.
DETERMING SLOPE FROM A GRAPH
Vertical Distance
Horizontal Distance =
RISESlope =
RUN
(Up or Down)
(Right or Left)
1. Identify 2 points on the line. (Points A and B)
2. Start at the leftmost point. (Point A)
3. Determine the Rise needed to get to the other point. (Point B)
Up: Number
Down: NumberRISE
4. Determine the Run needed to get to the other point. (Point B)
Right: Number
Left: NumberRUN
5. Express as a fraction and simplify if possible.
RISESlope =
RUN
Slope = Rise
Run=
2
3
A
B
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 276
EXAMPLE 1: Determine the slope of the line.
Choose two points on the line whose coordinates are integers.
Note that points A and B are not the only two points that we
could have chosen. Any two points on the line will work.
Start at the leftmost point (Point A).
Determine the rise by counting the number of units up
until you are across from the other point (Point B).
We moved 2 units.
And since we moved up, the rise is positive.
Therefore, Rise = 2.
Start where you left off at the tip of the upward arrow.
Determine the run by counting the number of units to the right
until you are on the other point (Point B).
We moved 1 unit. And since we moved right, the run is positive.
Therefore, Run = 1.
Rise 2Slope = = = 2
Run 1
Express the slope as a fraction and then simplify.
What if we choose different points on the same line? Will we get the same slope value? YES!
If you choose different points on the line, you will obtain a different fraction initially. But once you simplify the fraction, you will see that the answer is the same. We show an example like this below.
This is the same line as Example 1 above.
But we have chosen new points for A and B.
We start at point A.
We determine that the rise is 6 units up. Rise = 6
We determine that the run is 3 units to the right. Run = 3
We express this as a fraction and simplify:
Slope = Rise 6
2Run 3
The same answer!
A
B
A
B RISE Up 2
A
B
RUN Right 1
RISE Up 2
A
B
RISE Up 6
RUN Right 3
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 277
EXAMPLE 2: Determine the slope of the line.
Choose two points on the line whose coordinates are integers.
Note that points A and B are not the only two points that we
could have chosen. Any two points on the line will work.
Start at the leftmost point (Point A).
Determine the rise by counting the number of units down
until you are across from the other point (Point B).
We moved 4 units.
And since we moved down, the rise is negative.
Therefore, Rise = – 4.
Start where you left off at the tip of the downward arrow.
Determine the run by counting the number of units to the right
until you are on the other point (Point B).
We moved 3 units right.
And since we moved right, the run is positive.
Therefore, Run = 3.
Rise 4 4Slope = = =
Run 3 3
Express the slope as a fraction. It cannot be simplified, but the
negative sign can be moved in front of the fraction.
Remember that no matter which two points you choose on a line, you will always get the same slope.
Also, remember to write the slope in lowest terms by simplifying the fraction if possible.
A
B
A
B
RISE Down 4
A
B
RUN Right 3
RISE Down 4
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 278
REVIEW: DETERMINING SLOPE FROM A GRAPH Video 1 Video 2
PRACTICE: Determine the slope of each line. Remember that there are many pairs of points to
choose on a line. For a particular line, we may have used a different pair of points
than the pair that you select. But as long as you simplify your fractions, you should
obtain the same answers shown in the answer section.
1.
4.
2.
5.
3.
6.
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 279
ANSWERS:
1. 4.
Up 3 3
Slope = 3Right 1 1
Slope = 0
because the line is Horizontal
2. 5.
Down 1 1
Slope = Right 2 2
Down 1 1
Slope = Right 4 4
3. 6.
Slope is Undefined
because the line is Vertical
Up 2 2Slope =
Right 3 3
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 280
DETERMINING THE SLOPE OF A LINE FROM TWO POINTS (WITHOUT A GRAPH)
In the last section you were shown the graph of a line on the coordinate plane. You learned to
determine the slope of the line by identifying two points on the line and then counting the number
of units needed to rise and run to move from one point to the other.
But what if you are not shown the graph of the line? Can the slope still be determined? The answer
is yes. In this section we will investigate how two points can be used to determine the slope of a
line even if the graph is not given.
The key to the procedure is realizing the following:
The rise is the number of units that we move vertically in the y direction.
This is the same as the difference between the y-coordinates of the two points.
The run is the number of units that we move horizontally in the x direction.
This is the same as the difference between the x-coordinates of the two points.
Let’s illustrate with an example. We will count the rise and run with a graph just as we did before.
Then we will calculate the rise and run without a graph and show that the results are the same.
WITH GRAPH
We choose two points on the line.
Then we determine the rise and run by counting units on the graph.
We get the following:
Up 5Rise 5
Slope = = = Run Right 4 4
WITHOUT GRAPH
x y
( , )21
x y
( , )75 Now, suppose that we know that the two points (1, 2) and (5, 7) are on a line,
but we are not given the graph of the line nor a grid on which to plot the points.
Rise = 7 – 2 = 5 To determine the rise, we calculate the difference between the y-coordinates.
The answer is 5, the same as the rise shown in the graph above.
Run = 5 – 1 = 4 To determine the run, we calculate the difference between the x-coordinates.
The answer is 4, the same as the run shown in the graph above.
Rise 5Slope = =
Run 4 We get the slope as usual using
riserun . Notice that the result is the same as
the slope we got above when the graph was given.
RISE Up 5
RUN Right 4
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 281
Now we will generalize the process for finding the slope of a line without a graph. As we showed,
we only need two points on the line, and any two points will work. We will call the points 11 , yx
and 22 , yx . The small numbers in the ordered pairs are called subscripts and are used to
distinguish the two ordered pairs from each other. It does not matter which ordered pair is labeled
11 , yx and which is labeled 22 , yx . To get the rise, we subtract the y-coordinates. To get the
run, we subtract the x-coordinates. The slope is the ratio riserun . We express these math operations
as a formula. The formula and the procedure for finding slope are shown in the boxes below.
SLOPE FORMULA
2 1
2 1
Difference in -coordinates=
Difference in -coordinates
RiseSlope =
Run
Slope
Slope =
y
x
y y
x x
Note: It is not necessary to see the graph to compute the slope.
Only the points (ordered pairs) are needed.
CALCULATING SLOPE FROM TWO POINTS (without a graph)
1. Label the coordinates of one point 1 1,x y .
Label the coordinates of the other point 2 2,x y .
NOTE: It does not matter which point is labeled as 1 1,x y and which is labeled as 2 2,x y .
2. Substitute the values of the coordinates into the slope formula: 2 1
2 1
Slope = y y
x x
3. Simplify the fraction if possible.
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 282
EXAMPLES: Calculate the slope of the line that passes through each pair of points.
1. (2, 5) and (7, 9)
1 1
( 2 , 5 )
x y
2 2
( 7 , 9 )
x y
We label the first point 1 1,x y
and the second point 2 2,x y .
2 1
2 1
2 1
12
Slope = 9 5 4
57 2
y y
xx
y y
x x
Substitute the values of the coordinates into the slope formula.
Then simplify.
What if we labeled the second point 1 1,x y and the first point 2 2,x y ? Let’s try it!
1 1
( 7 , 9 )
x y
2 2
( 2 , 5 )
x y
We reversed the way that we labeled the points.
2 1
2 1
2 1
12
Slope = 5 9 4 4
5 52 7
yy
x x
y y
x x
Substitute the values of the coordinates into the slope formula.
Simplify. Remember that when we divide two negative
numbers, we get a positive result.
The final answer is the same as above.
2. (4, 2) and ( 5,1)
1 1
( 4 , 2 )
x y
2 2
( 5 , 1)
x y
We label the first point 11 , yx
and the second point 22 , yx .
12
2 1
2 1
12
Slope 1 ( 2)
=5 4
1 2
5 4
3
9
1
3
yy
xx
y y
x x
Substitute the values of the coordinates into the slope formula.
The formula has subtraction in it. In the numerator, the number
following the subtraction sign is a negative number, so we must
write both the subtraction sign and the negative sign.
Change each subtraction to addition by adding the opposite.
Simplify to reduce the fraction to lowest terms.
Do not leave the negative sign in the denominator.
Instead move it in front of the fraction.
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 283
3. ( 6, 3) and ( 2,0)
1 1
( 6 , 3 )
x y
2 2
( 2 , 0 )
x y
Label the first point 11 , yx
and the second point 22 , yx .
12
2 1
2 1
2 1
Slope 0 ( 3)
=2 ( 6)
0 3
2 6
3
4
yy
x x
y y
x x
Substitute the values of the coordinates into the slope formula.
The slope formula has subtraction in it. Since the number
following each subtraction sign is a negative number, we need
to write both the subtraction sign and the negative sign.
Change each subtraction to addition by adding the opposite.
The fraction cannot be simplified.
4. ( 1,3) and (8,3)
1 1
( 1, 3 )
x y
2 2
( 8 , 3 )
x y
Label the first point 11 , yx
and the second point 22 , yx .
2 1
2 1
2 1
2 1
Slope 3 3
=8 ( 1)
3 3
8 1
0
9
0
y y
x x
y y
x x
Substitute the values of the coordinates into the slope formula.
The slope formula has subtraction in it. In the denominator,
the number following the subtraction sign is a negative
number, so we need to write both the subtraction sign and the
negative sign.
Change the subtraction to addition by adding the opposite.
Simplify.
Remember that 0 divided by any nonzero number equals 0.
Note: Whenever the y-coordinates are the same, we will
get 0 in the numerator, and 0 divided by any
nonzero number is 0. If we were to draw the line
connecting the two given points, we would get the
horizontal line shown to the right. As we saw
earlier, the slope of a horizontal line is 0.
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 284
5. (5,7) and (5, 4)
1 1
( 5 , 7 )
x y
2 2
( 5 , 4 )
x y
Label the first point 11 , yx
and the second point 22 , yx .
2 1
2 1
2 1
2 1
Slope 4 7
=5 5
4 ( 7)
5 5
11
0
Undefined
y y
x x
y y
x x
Substitute the values of the coordinates into the slope formula.
Change the subtraction to addition by adding the opposite.
Simplify.
Remember that any nonzero number divided by 0 is undefined.
Note: Whenever the x-coordinates are the same, we will get 0 in the
denominator. Since division by 0 is undefined, the slope of the
line is undefined. If we were to draw the line connecting the two
given points, we would get the vertical line shown to the right. As
we saw earlier, the slope of a vertical line is undefined.
Things to Remember When Using the Slope Formula
Subtracting a negative number becomes adding a positive number. Example: 2 ( 3) 2 3
0 in the numerator slope = 0
0 in the denominator undefined slope
PRACTICE: Calculate the slope of the line that passes through each pair of points.
1. 3, 2 and 1, 7
2. 1, 4 and 5,2
3. 8,1 and 8, 3
4. 1, 2 and 6, 2
5. 3,5 and 1, 3
6. 6,6 and 1,4
7. 2,4 and 2,7
8. 4,9 and 5,9
ANSWERS:
1. 7 ( 2) 5
1 3 4
5
4
2. 2 ( 4) 6
5 ( 1) 6
1
3. 3 1 4
8 8 0
undefined slope
4. 2 ( 2) 0
6 1 5
0
5. 3 5 3 5 8
1 ( 3) 1 3 2
4
6. 4 6 24 6
1 ( 6) 1 6 5
2
5
7. 7 4 3
2 2 0
undefined slope
8. 09 9
5 4 9
0
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 285
SECTION 4.2 SUMMARY Slope of a Line
SLOPE
Slope – a number that describes the steepness (or slant) of a line
Slope of Line Direction of Line (from Left to Right)
Positive Number Slants Up
Negative Number Slants Down
0 Horizontal
Undefined Vertical
DETERMINING
THE SLOPE OF
A LINE FROM
ITS GRAPH
Vertical Distance
Horizontal Distance =
RISE =
RUNSlope
(Up or Down)
(Right or Left)
1. Identify 2 points on the line. (Points A and B)
2. Start at the leftmost point. (Point A)
3. Count how many units you have to move to get to the other point (Point B):
a. Count the Rise (Vertical Distance)
Up: Number
Down: NumberRISE
b. Count the Run (Horizontal Distance)
Right: Number
Left: NumberRUN
4. Express the slope as a fraction RISERUN
and
simplify if possible.
Example: Determine the slope of the line.
Rise Down 3 3 3
Run Right 2 2 2Slope =
DETERMINING
THE SLOPE OF
A LINE FROM
TWO POINTS
1. Label the coordinates of one point 1 1,x y and the coordinates of the other point 2 2,x y .
Note: It does not matter which point is labeled as 1 1,x y and which is labeled as 2 2,x y .
2. Substitute the values of the coordinates into the slope formula: 2 1
2 1Slope =
y y
x x
.
Note: Remember to include any negative signs along with the subtraction sign. Example: 5 ( 2)
3. Simplify the fraction if possible.
Note: 00
number and
0undefined
number (Do the division on your calculator if you forget these.)
Example: Find the slope of the line that passes through (3, 5) and ( 1,9) .
1 1
( 3 , 5 )
x y
2 2
( 1 , 9 )
x y
2 1
2 1
9 ( 5) 9 5 14 7
1 3 1 3 4 2Slope =
y y
x x
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 286
Slope of a Line
A B C D E
1. Which of the lines above have positive slope?
2. Which of the lines above have negative slope?
3. Which of the lines above have zero slope?
4. Which of the lines above have undefined slope?
A B C D E
5. Which of the lines above have negative slope?
6. Which of the lines above have zero slope?
7. Which of the lines above have undefined slope?
8. Which of the lines above have positive slope?
SECTION 4.2 EXERCISES
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 287
Determine the slope of each graphed line.
9.
13.
10.
14.
11.
15.
12.
16.
Determine the slope of the line that passes through each pair of points.
17. 3,8 and 9, 2
18. 1,2 and 1,7
19. 1,4 and 3,4
20. 7, 2 and 3,10
21. 7,4 and 7,6
22. 5,8 and 2,8
23. 2,6 and 5, 8
24. 7,3 and 4, 6
3. 5. 5.
CHAPTER 4 ~ Linear Equations in Two Variables Section 4.2 – Slope of a Line
Page 288
Answers to Section 4.2 Exercises
1. A
2. B and D
3. C
4. E
5. C
6. D
7. A
8. B and E
9. 3
2
10. –2
11. 3
4
12. Undefined
13. 0
14. Undefined
15. –3
16. 0
17. –5
3
18. Undefined
19. 0
20. 3
21. Undefined
22. 0
23. –2
24. 9
11
CHAPTER 4 ~ Linear Equations Section 4.2 – Slope of a Line
Page 289
Mixed Review Sections 1.1 – 4.2
1. Solve 38 4 10 5
4x x , graph the solution, and write the solution in interval notation.
2. Solve ab c d for b.
3. If 15 parts are defective in a shipment of 525 parts, how many parts can be expected to be
defective in a shipment of 1750 parts?
4. Convert 92 grams to kilograms. Use the conversion fact: 1 kilogram (kg) = 1000 grams (g)
5. What percent of 408 is 61.2?
6. Sean has 4.5% deducted from each paycheck for taxes. If Sean’s gross salary on his last
paycheck was $960, what was his net salary?
7. Write the ordered pair for
each of the points shown on
the graph to the right.
8. Determine if the ordered pair 6, 1 is a solution of the equation 5 9 21x y .
9. Determine the unknown coordinate so that __ , 7 is a solution of 8 6 10x y .
10. Determine the x and y intercepts of the graph of 4 3 24x y .
Answers to Mixed Review 1. 2x
( , 2)
2. c d
ba
3. 50
4. 0.092 kg
5. 15%
6. $916.80
7.
A 2,0
B 3, 4
C 4, 2
8. Yes
9. ,74
10.
-intercept: 6,0
-intercept: 0,8
x
y
)